CN210993086U - Ore soil extraction device - Google Patents

Abstract

The utility model provides a mineral soil extraction device belongs to extraction technical field, including cylinder, AC motor, outlet pipe, waterproof bearing, baffle, pivot, carousel, rotary drum, adverse surface board, separating tank, rotation post, gear wheel, pinion, dwang, transmission bevel gear, transfer line, drive bevel gear, transmission bolt, fixing bearing, rotor plate, dead lever, support and in the same direction as the surface board, the bottom embedding welding of cylinder has AC motor, and the bottom embedding welding of cylinder has the outlet pipe. The utility model provides a rotor plate drives clockwise rotation along with the surface plate, on getting rid of anticlockwise pivoted rotary drum with ore soil and water that is along with the surface plate is quick, water directly passes the rotary drum through the separating tank, and ore soil then stays the rotary drum inner wall or drops on the carousel, is different with traditional extraction mode, and through utilizing centrifugal force, greatly increased ore soil is at the removal efficiency of aquatic, makes the quick completion separation of water ore soil and water, has separation efficiency height, separation advantage such as effectual.

Description

Ore soil extraction device

Technical Field

The utility model relates to an extraction technical field, it is specific, relate to a mineral soil extraction device.

Background

The chemical metallurgical food petroleum refining industry, which is also called solvent extraction or solvent solubility separation mixture unit operation substance partition coefficient of extraction system component, utilizes the difference of solubility or partition coefficient of substances in two solvents which are not mutually soluble to transfer the substances from one solvent to the other solvent. Through extracting many times repeatedly, extract most compounds, in the metallurgical technology field, often can mix small ore soil in aqueous, generally the ore soil of aquatic is separated out through filtering, but because the ore soil blocks up the filtration pore extremely easily, lead to the unable long-time use of filter screen, need frequent change filter screen, cause ore soil separation efficiency extremely slow, so just need extraction device, separate out the ore soil from the aquatic, and extraction device among the prior art, because the great flow of volume of ore soil is slow, be not suitable for with the separation of ore soil and water, there is separation efficiency slow, the long scheduling problem of separation time. Therefore, further research needs to be carried out on the basis of the extraction device, and the mineral soil extraction device is provided.

SUMMERY OF THE UTILITY MODEL

This kind of mineral soil extraction device solves the great flow of volume of above-mentioned proposition because the mineral soil is slow, be not suitable for with the separation of mineral soil and water, there is separation efficiency slow, the long problem of separation time, a mineral soil extraction device is provided, rotor plate among this extraction device drives along with curved plate clockwise rotation, along with curved plate quick get rid of anticlockwise pivoted rotary drum with mineral soil and water on, water directly passes the rotary drum through the separating tank, the mineral soil then stays the rotary drum inner wall or drops on the carousel, different with traditional extraction mode, through utilizing centrifugal force, greatly increased mineral soil's removal efficiency in aqueous, make the quick completion separation of water mineral soil and water, it is high to have separation efficiency, separation effect is good, separation time advantage such as short.

The utility model provides a following technical scheme: a mineral soil extraction device comprises a separation cylinder, an alternating current motor, a water outlet pipe, a waterproof bearing, a baffle, a rotating shaft, a rotary disc, a rotary drum, an inverse curved plate, a separation groove, a rotating column, a gear wheel, a pinion, a rotating rod, a transmission bevel gear, a transmission rod, a driving bevel gear, a transmission bolt, a fixed bearing, a rotating plate, a fixed rod, a support and an inverse curved plate, wherein the alternating current motor is welded at the bottom of the separation cylinder in an embedded manner, the water outlet pipe is welded at the bottom of the separation cylinder in an embedded manner, the waterproof bearing is arranged on the inner wall of the separation cylinder through a support rod in a welded manner, the baffle is arranged on the inner wall of the separation cylinder in a welded manner, the rotary shaft is connected to the top of the alternating current motor in a rotated manner, the rotary disc is welded at the top of the rotary disc, the top welding of carousel is provided with rotates the post, it runs through the welding in the centre of gear wheel to rotate the post, the both sides of gear wheel all mesh has the pinion, the top welding of carousel is provided with two supports, one side of support all welds and is provided with three fixing bearing, fixing bearing's centre is run through the welding respectively and is tied with two dwang, two transfer lines and a drive bolt, and the centre of pinion is run through the welding respectively by two dwang, the both ends of transfer line and the top of dwang all weld and are provided with the transmission bevel gear, the bottom welding of drive bolt is provided with the drive bevel gear, the top welding of drive bolt is provided with the rotor plate, the top welding of rotor plate is provided with the dead lever, the top welding of rotor plate is provided with a plurality of.

Further preferred embodiments: the clockwise surface plate and the separating groove are arranged around the top of the rotating plate in a clockwise manner, the clockwise surface plate and the separating groove are arc-shaped, the radian of the separating groove is 5-15 degrees, and the radian of the clockwise surface plate is 30-60 degrees.

Further preferred embodiments: the reverse-curved plate is arranged at the top of the turntable in a reverse-time needle surrounding manner, and the reverse-curved plate is arc-shaped, and the arc of the arc shape is 30-60 degrees.

Further preferred embodiments: the bottom of the driving bevel gear is meshed with the two transmission bevel gears, and one end of the transmission rod is meshed with the two transmission bevel gears at the top of the rotating rod.

Further preferred embodiments: the fixed rod is welded in the middle of the waterproof bearing in a penetrating mode and is located right above the transmission bolt.

Further preferred embodiments: the baffle is circular ring-shaped, and the baffle is 70 degrees with the contained angle of separating cylinder inner wall, and the inner circle diameter of baffle is less than the inner circle diameter of rotary drum.

Further preferred embodiments: the power output end of the alternating current motor is a rotating shaft, and the rotating shaft, the rotating column and the transmission bolt are located on the same straight line.

Has the advantages that: the utility model provides a rotor plate drives clockwise rotation along with the curved plate, in the same direction as the curved plate quick get rid of anticlockwise pivoted rotary drum with ore soil and water on, water directly passes the rotary drum through the separating tank, ore soil then stays the rotary drum inner wall or drops on the carousel, different with traditional extraction mode, through utilizing centrifugal force, greatly increased ore soil's removal efficiency in aqueous, make water ore soil and the quick completion separation of water, and be the curved plate, can make water and ore soil remove along the separating tank direction, make water and ore soil directly be got rid of the opening part of separating tank, reduce the time that water and ore soil stopped at the rotary drum inner wall, and further increase separation efficiency, the separating tank is the speed that the curved surface can greatly increased water outflow rotary drum, and then increase separation efficiency, it is high to have separation efficiency, separation effect is good, separation time advantage such as short.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the separation cylinder of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

Fig. 4 is an enlarged schematic view of the present invention at B in fig. 2.

In FIGS. 1-4: the device comprises a separation cylinder 1, an alternating current motor 2, a water outlet pipe 3, a waterproof bearing 4, a baffle 5, a rotating shaft 6, a rotating disc 7, a rotating cylinder 8, an inverse curved plate 9, a separation groove 10, a rotating column 11, a large gear 12, a small gear 13, a rotating rod 14, a transmission bevel gear 15, a transmission rod 16, a driving bevel gear 17, a transmission bolt 18, a fixed bearing 19, a rotating plate 20, a fixed rod 21, a support 22 and an inverse curved plate 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a mineral soil extraction apparatus includes a separation cylinder 1, an ac motor 2, a water outlet pipe 3, a waterproof bearing 4, a baffle 5, a rotating shaft 6, a rotating disk 7, a rotating drum 8, an inverse curved plate 9, a separation groove 10, a rotating column 11, a large gear 12, a pinion 13, a rotating rod 14, a transmission bevel gear 15, a transmission rod 16, a driving bevel gear 17, a transmission bolt 18, a fixed bearing 19, a rotating plate 20, a fixed rod 21, a bracket 22 and a consequent curved plate 23, the ac motor 2 is welded to the bottom of the separation cylinder 1 in an embedded manner, the water outlet pipe 3 is welded to the bottom of the separation cylinder 1, the waterproof bearing 4 is welded to the inner wall of the separation cylinder 1, the baffle 5 is welded to the inner wall of the separation cylinder 1, the top of the ac motor 2 is rotated to be connected with the rotating shaft 6, the rotating disk 7 is welded to the, the top of the rotary disc 7 is welded with a rotary drum 8, the inner opening of the rotary drum 8 is provided with a plurality of separation grooves 10, the top of the rotary disc 7 is welded with a rotary column 11, the rotary column 11 is welded in the middle of a big gear 12 in a penetrating way, both sides of the big gear 12 are engaged with small gears 13, the top of the rotary disc 7 is welded with two brackets 22, one side of each bracket 22 is welded with three fixed bearings 19, the middle of each fixed bearing 19 is respectively welded with two rotary rods 14, two transmission rods 16 and one transmission bolt 18 in a penetrating way, the middle of each small gear 13 is respectively welded with the two rotary rods 14 in a penetrating way, both ends of each transmission rod 16 and the top of each rotary rod 14 are welded with transmission bevel gears 15, the bottom of each transmission bolt 18 is welded with a driving bevel gear 17, the top of each transmission bolt 18, the top of the rotating plate 20 is welded with a plurality of compliant surface plates 23.

Preferably, the clockwise curved plate 23 and the separation groove 10 are clockwise surrounding the top of the rotating plate 20, the clockwise curved plate 23 and the separation groove 10 are arc-shaped, the rotating plate 20 drives the clockwise curved plate 23 to rotate clockwise, mineral soil and water are quickly thrown onto the anticlockwise rotating rotary drum 8 along the curved plate 23, the water directly passes through the separation groove 10 and passes through the rotary drum 8, the mineral soil is left on the inner wall of the rotary drum 8 or falls onto the rotary disc 7, different from the traditional extraction mode, the moving efficiency of the mineral soil in the water is greatly increased by utilizing centrifugal force, the separation of the mineral soil and the water is quickly completed, the clockwise curved plate 23 is curved, the water and the mineral soil can move along the direction of the separation groove 10, the water and the mineral soil are directly thrown to the opening of the separation groove 10, the time of the water and the mineral soil staying on the inner wall of the rotary drum 8 is reduced, the separation efficiency is further increased, and the radian of the separation groove 10 is 5 degrees, the separation groove 10 is curved, which can greatly increase the speed of water flowing out of the rotary drum 8, and further increase the separation efficiency, and has the advantages of high separation efficiency, good separation effect, short separation time, and the like, and the radian of the forward curved plate 23 is 30 degrees, the reverse curved plate 9 surrounds the top of the rotary table 7 in a reverse time manner, the reverse curved plate 9 is arc-shaped, and has an arc-shaped radian of 30 degrees, the bottom of the driving bevel gear 17 is meshed with the two transmission bevel gears 15, one end of the transmission rod 16 is meshed with the two transmission bevel gears 15 at the top of the rotating rod 14, the fixing rod 21 is penetratingly welded in the middle of the waterproof bearing 4, the fixing rod 21 is positioned right above the transmission bolt 18, the baffle 5 is annular, the included angle between the baffle 5 and the inner wall of the separation drum 1 is 70 degrees, the diameter of the inner ring of the baffle 5 is smaller than that of the rotary, The rotary post 11 and the drive bolt 18 are located on the same line.

The working principle is as follows:

when the mineral soil extraction device of the utility model is used, firstly, the power supply of the alternating current motor 2 is switched on, the alternating current motor 2 drives the rotating shaft 6 to rotate anticlockwise, the rotating shaft 6 drives the inverse curved plate 9, the separation groove 10, the rotating column 11, the gearwheel 12 and the bracket 22 to rotate anticlockwise synchronously, the gearwheel 12 drives the two pinions 13 to rotate clockwise, the two pinions 13 respectively drive the rotating rod 14 and the transmission bevel gear 15 to rotate clockwise, the transmission bevel gear 15 rotates clockwise with the transmission bevel gear 15 at the top thereof, the transmission bevel gear 15 drives the two transmission rods 16 to rotate clockwise and anticlockwise respectively, so that the two transmission bevel gears 15 drive the driving bevel gear 17 to rotate clockwise and horizontally, further the transmission bolt 18, the rotating plate 20, the fixed rod 212 and the clockwise curved plate 23 rotate clockwise, secondly, the water and mineral soil mixture is injected into the rotating drum 8, the clockwise curved plate 23 throws the mineral soil and the water onto the rotating drum 8 rotating anticlockwise, water directly passes through the rotary drum 8 through the separation grooves 10, and the mineral soil is left on the inner wall of the rotary drum 8 or falls onto the rotary disc 7 to complete separation work, and finally the mineral soil is taken out from the inner wall of the rotary drum 8 and the rotary disc 7.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (7)

1. The utility model provides a mineral soil extraction device, including cylinder (1), alternating current motor (2), outlet pipe (3), waterproof bearing (4), baffle (5), pivot (6), carousel (7), rotary drum (8), contrary curved plate (9), separating tank (10), rotation post (11), gear wheel (12), pinion (13), dwang (14), transmission bevel gear (15), transfer line (16), drive bevel gear (17), driving bolt (18), fixing bearing (19), rotor plate (20), dead lever (21), support (22) and in the same direction as curved plate (23), its characterized in that: the bottom of a separation cylinder (1) is embedded and welded with an alternating current motor (2), the bottom of the separation cylinder (1) is embedded and welded with a water outlet pipe (3), the inner wall of the separation cylinder (1) is provided with a waterproof bearing (4) through a support rod, the inner wall of the separation cylinder (1) is welded with a baffle (5), the top of the alternating current motor (2) is connected with a rotating shaft (6) in a rotating way, the top of the rotating shaft (6) is welded with a rotating disc (7), the top of the rotating disc (7) is welded with a plurality of inverse curved plates (9), the top of the rotating disc (7) is welded with a rotating drum (8), an internal opening of the rotating drum (8) is provided with a plurality of separating grooves (10), the top of the rotating disc (7) is welded with a rotating column (11), and the rotating column (11) is welded in, the two sides of the big gear (12) are respectively engaged with a small gear (13), the top of the rotary table (7) is welded with two brackets (22), three fixed bearings (19) are welded on one side of the bracket (22), two rotating rods (14), two transmission rods (16) and a transmission bolt (18) are respectively welded in the middle of each fixed bearing (19) in a penetrating way, and the middle of the pinion (13) is respectively penetrated and welded by two rotating rods (14), the two ends of the transmission rod (16) and the top of the rotating rod (14) are respectively welded with a transmission bevel gear (15), the bottom of the transmission bolt (18) is welded with a driving bevel gear (17), the top of the driving bolt (18) is welded with a rotating plate (20), the top of the rotating plate (20) is welded with a fixed rod (21), the top of the rotating plate (20) is welded with a plurality of smooth surface plates (23).

2. The mineral soil extraction apparatus of claim 1, wherein: the clockwise plate (23) and the separating groove (10) are encircled at the top of the rotating plate (20) clockwise, the clockwise plate (23) and the separating groove (10) are arc-shaped, the radian of the separating groove (10) is 5-15 degrees, and the radian of the clockwise plate (23) is 30-60 degrees.

3. The mineral soil extraction apparatus of claim 1, wherein: the retrogradation surface plate (9) surrounds the top of the turntable (7) in a retrogradation mode, and the retrogradation surface plate (9) is arc-shaped, and the arc of the arc shape is 30-60 degrees.

4. The mineral soil extraction apparatus of claim 1, wherein: the bottom of the driving bevel gear (17) is meshed with the two transmission bevel gears (15), and one end of the transmission rod (16) is meshed with the two transmission bevel gears (15) at the top of the rotating rod (14).

5. The mineral soil extraction apparatus of claim 1, wherein: the fixing rod (21) is welded in the middle of the waterproof bearing (4) in a penetrating mode, and the fixing rod (21) is located right above the transmission bolt (18).

6. The mineral soil extraction apparatus of claim 1, wherein: the baffle (5) is annular, and the included angle between the baffle (5) and the inner wall of the separating cylinder (1) is 70 degrees, and the diameter of the inner ring of the baffle (5) is smaller than that of the inner ring of the rotating cylinder (8).

7. The mineral soil extraction apparatus of claim 1, wherein: the power output end of the alternating current motor (2) is a rotating shaft (6), and the rotating shaft (6), the rotating column (11) and the transmission bolt (18) are located on the same straight line.

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